Monday, June 3, 2019
Bedside Index for Severity in Acute Pancreatitis (BISAP)
Bedside Index for Severity in Acute Pancreatitis (BI vingt-et-un)AbstractObjectives The blueprint of this study was to evaluate the diagnostic performance of Bedside Index for Severity in Acute Pancreatitis (BISAP) score for predicting severe acute pancreatitis (SAP) in the early phase.Method The PubMed, Cochrane depository library and EMBASE databases were searched until whitethorn 2014. The strict selection criteria and exclusion criteria were determined, and we applied hierarchic summary receiver operating characteristic (HSROC) model and bivariate random effects models to value thediagnosibility of the BISAP score for predicting SAP. We obtained pooled summary statistics for esthesia, specificity, positive likelihood ratio (PLR), negative likelihood ratio (NLR), diagnostic odds ratio (DOR) and calculated the ara under the HSROC edit out (AUC). The 95% confidence intervals (CI) for each diagnostic test measure were excessively calculated. Publication bias was assessed using D eeks funnel plot asymmetry test. statistical analyses were performed using the STATA12.0 software.Results The pooled sensitivity, specificity, PLR, NLR, and DOR were 64.82%, 83.62%, 3.96, 0.42 and 9.41, respectively. The AUC was 0.77 and the HSROC curve for single studies was generated and analyzed to explore the influence of threshold effects.Conclusion We confirmed that BISAP score is an completed means to predict SAP in the early phase.Keywords BISAP, HSROC curve, severe acute pancreatitis, acute pancreatitisIntroductionAcute pancreatitis (AP) is an inflammatory condition of the pancreas with a clinical course that varies from mild to severe and characterized by energizing of pancreatic enzymes to ca single-valued function self-digestion of the pancreas 1. Generally, AP is mild, self-limiting, and requires no special treatment and ranges about 80-90% of patients with only minimal or transitional systemic manifestations, but about 20%-30% of patients bewilder a severe disease t hat can progress to systemic inflammation and cause pancreatic necrosis, multi-organ failure, and potentially death 1-4. So it is meaning(a) to have an early, quick, and exact risk stratification of AP patients, which would permit evidence- ground early initiation of intensive care therapy for patients with severe AP (SAP) to prevent adverse outcomes and allow treatment of mild AP (MAP) on the super C ward. Early identification of patients with SAP would allow the clinician to consider more aggressive interventions within a time frame that could prevent possible complications.Currently, at that place are a variety of score systems developed for the early detection of SAP, such as Ransons score 5, acute physiology and chronic health examination (APACHE) II 6, 7 and computed tomography inclemency index (CTSI) 8. Also there are many inflammation markers such as C-reactive protein (CRP), interleukin-6 (IL-6) and others 9, 10. Several studies show that cytokines play an important r ole in the cascading inflammatory responses 11 and it whitethorn act as mediators of distant organ complications in SAP. So the levels of cytokine in serum may also reflect the degree of the inflammatory response 12. In 2008, Wu et al. 13 proposed a new prognostic scoring system, the bedside index of severity in acute pancreatitis (BISAP), is a simple and accurate method that can predict the clinical severity of AP within 24 h of presentation. BISAP incorporates five parameters blood urea nitrogen 25 mg/dL, impaired mental status, systemic inflammatory response syndrome (SIRS), age 60 years, and detection of pleural effusion by imaging 14.Unfortunately there has been no systematic or meta-analytic review of cross-sectional studies of this scoring system. The purpose of this study was to aggregate the describe data crosswise the diametric studies and to assess the superpower of the BISAP score to predict SAP.Materials and methods2.1 Literature searchThe search was performed on t hree databases PubMed, Cochrane library and EMBASE. These databases were searched from the first date available in each database up to May 2014, using the search terms acute pancreatitis AND (BISAP OR bedside index of severity in acute pancreatitis). Once articles had been collected, bibliographies were then hand-searched for additional names.2.2 Inclusion and Exclusion CriteriaTo be included in this meta-analysis, studies must meet the quest criteria (1) studies evaluate the BISAP score for predicting SAP (2) the subjects were diagnosed with AP (3) prospective study (4) the absolute numbers of true positive (TP), insincere negative (FN), false positive (FP), and true negative (TN) test provides were available or derivable from the article (5) the clinical result of patients was indicated as SAP.Studies were excluded if one of the following existed (1) the numbers of TP, FN, FP, and TN test results were not derivable from the article (2) cross-sectional study (3) non-original ar ticles, such as review, meeting abstract, case report and comment (4) duplicate of previous publications and data description is not clear.2.3 Data extraction and quality assessment completely data were extracted independently by two authors according to the inclusion criteria listed above. Disagreements were resolute by discussion or solved by consultation of a third reviewer. The following characteristics were collected from each study the first author, year of publication, source, audition design, sample size, the reference standard (gold standard), the numbers of TP, FN, FP, and TN and others. The QADAS (Quality Assessment of Diagnostic Accuracy Studies) criteria were used to assess the quality of diagnostic truth studies included in this meta-analysis 15.statistical analysesHierarchical summary receiver operating characteristic (HSROC) modeland bivariate random effects model were performed in STATA 12.0 (StataCorp, College Station, TX, USA) software using the program metandi to generate pooled accuracy estimates of sensitivity, specificity, positive likelihood ratio (PLR), negative likelihood ratio (NLR), diagnostic odds ratio (DOR) and calculated the area under the HSROC curve (AUC) 16. The HSROC curve for individual studies was generated and analyzed to explore the influence of threshold effects. The 95% confidence intervals (CI) for each diagnostic test measure were also calculated. Publication bias was assessed using Deeks funnel plot asymmetry test 17.Results3.1 Eligible StudiesThe process of selecting studies for the meta-analysis was shown in Fig. 1. There were 32 studies potentially eligible studies identified. Of these, 14 studies were excluded after screening based on abstracts or titles to avoid obvious irrelevance. Finally, 9 studies 14, 18-25 met the inclusion criteria and were included in the meta-analysis. The data collected from the related studies was summarized in Table 1. Among these studies, kim et al. 20 reported the results of th e meta-analysis with the cutoff values set at 2and 3, respectively. All patients were recruited within 24 h from the time of memory access or transfer and used for the calculation of the BISAP scores. All included citations were prospective cohort studies. The absolute numbers of TP, FN, FP, and TN were calculated by sample size and the degree of sensitivity and specific.A summary of the quality of the studies was displayed in table 2. The included studies were not descript the tenth quality indicator (were the index test results interpreted without knowledge of the results of the reference?) and the eleventh quality indicator (were the reference standard results interpreted without knowledge of the results of the index test?) 15. At the same time, there are some studies not described in detail for sweep away and exit objects.3.2 Meta-analysisThe results of the HSROC model were show in Table 3. The pooled sensitivity of BISAP testing for the diagnosis of SAP was 64.82% (95% CI 54. 47%-73.74%), and the specificity was 83.62% (95%CI 70.03%-91.77%). The pooled DOR was 9.41 (95%CI 5.38-16.45), the PLR was 3.96 (95%CI 2.27-6.89), and the NLR was 0.42 (95%CI 0.34-0.52). The AUC of the HSROC was 0.77 (95%CI 0.73-0.80) (Fig. 2). The I2 index of heterogeneity was 95% (95% CI, 91%-99%).3.3 Subgroup AnalysesThere was a negative correlation betwixt the logits of sensitivity and specificity (Spearman correlation coefficient, 20.09), indicating the present of an importanteffect of the diagnostic threshold (cutoff level) on the performance of BISAP score. The following cutoffs were selected for subgroups analysis (Table 4). psychoanalysis of studies that set the BISAP cutoff point at 2, the pooled sensitivity, specificity, PLR, NLR, and DOR were 67.30% (95%CI 60.53%-73.42%), 78.28% (95%CI 68.86%-85.46%), 3.10 (95%CI 2.12-4.52), 0.42 (95%CI 0.34-0.51) and 7.42 (95%CI 4.39-12.54), respectively. The AUC of the HSROC was 0.70(95%CI 0.66-0.74).Analysis of studies that set the B ISAP cutoff point at 3, the pooled sensitivity, specificity, PLR, NLR, and DOR were 61.18% (95%CI 41.20%-78.00%), 88.64% (95%CI 88%-97.18%), 5.39 (95%CI 1.80-16.12), 0.44 (95%CI 0.30-0.64), and (95%CI 4.44-34.03), respectively. The AUC of the HSROC was 0.78 (95%CI 0.75-0.82).3.4 Publication BiasDeeks Funnel plat Asymmetry Test for the overall analysis showed that no significant publication bias was found (P = 0.359, Fig. 3).DiscussionGenerally, Ranson, APACHE II, and CTSI scoring systems have been used to evaluate the severity of AP 22, 23. However, these techniques all have their inherent strengths and weaknesses. For example, the Ransons score 5 is relatively accurate at classifying the severity of AP, but the evaluation cannot be completed until 48 h, which will miss the potential for early treatment and increase mortality. The APACHE II system 6, 7 allows the determination of disease on the first day of admission and is more accurate than Ransons score, but complexity is its ma jor drawback. CTSI 26, 27 is calculated based on CT findings of some local complications and cannot reflect the systemic inflammatory response. Recently, the BISAP score has been proposed as an accurate method for early identification of patients at risk for in hospital mortality 13. Several studies showed that BISAP score is a reliable and accurate means for predicting the severity of AP in the early phase 18, 22, 23. But these studies are not systematic, so we collect the reported data across the different studies and apply HSROC model and bivariate random effects model to assess the ability of the BISAP score to predict SAP. The pooled sensitivity, specificity, PLR, NLR, and DOR were 64.82%, 83.62%, 3.96, 0.42 and 9.41, respectively. The AUC of the HSROC was 0.77. Our meta-analysis indicated that BISAP score is a reliable and accurate means to predict SAP.This meta-analysis assessed the diagnostic performance of BISAP in 1972 individuals from 9 research studies 14, 18-25. The res ults show that the performance of BISAP to predict the severity of AP has a salutary specificity, but have sensitivity in predicting SAP. In addition, compared with other scoring systems in predicting SAP, BISAP has a higher specificity but a lower sensitivity 21-23, 28. The low sensitivity may be caused by these factors. First, the characteristics of study participants are differences (cultural and geographical differences), such as lifestyle, race, and genetic basis. Second, etiologic distribution may also explain the noted differences. Third, the different definitions of SAP may also be a reason for these variations.The HSROC curve presents a global summary of test performance and shows the tradeoff between sensitivity and specificity. The summary DOR and the AUC of the HSROC were 9.41 and 0.77, respectively.The prophetic accuracy of BISAP scoring system was measured by AUC. An AUC of 1.0 represents a perfect test, whereas an AUC of 0.5 represents a test that performs no bette r than chance 29. The result revealed that the discrimination of disease severity was good in our study, which is similar to other reports. DOR is a single indicator of test accuracy that combines the sensitivity and specificity data into a single number. The DOR of a test is the ratio of the odds of positive test results in the patient with disease relative to the odds of positive test results in the patient without disease. The value of a DOR ranges from 0 to infinity, with higher values indicating better discriminatory test performance (higher accuracy).A DOR of 1.0 indicates that a test does not discriminate between patients with the disorder and those without it 30. In the present meta-analysis, we found that the pooled DOR was 9.41, also indicated a high level of overall accuracy.Since the HSROC curve and theDOR are not easy to interpret or use in clinical practice, and likelihood ratios are considered to be more clinically meaningful, we also presented both PLR and NLR as our measures of diagnostic accuracy. Likelihood ratios of 10 or 31. The PLR and NLR value were 3.96 and 0.42, respectively. This result performed similar to traditional scoring systems in predicting SAP and suggested that the accuracy of still need to improve. But BISAP is relatively simple and had greater accuracy than other scoring systems, making it a promising method of predicting SAP 14, 19, 21, 28. Furthermore,it may be combined in medical decision-making at the extreme of the prodigy range, such as enrollment criteria for clinical trials, and as triaging intensive care unit admission 32, 33.We also explored systematically the issue of heterogeneity by use of subgroup analysis. In our analysis, the diagnostic threshold presented an important effect on the performance of BISAP score. The results demonstrated that a BISAP score of 3 had greater accuracy and high predictive value than a score of 2 for predicting SAP.Our meta-analysis had several limitations. First, when the BISAP scoring system converts continuous variables into binary values of equal weight, it fails to capture synergistic or multiplicative effects based on the interactions of interdependent systems 21. Future research could focus on comprehensive reassessment of the pathologic mechanisms of AP with attention to the effects of preexisting risk factors (e.g. age, obesity, genetic) and well-defined end points, identification of accurate biomarkers to assess activity on these pathways, and mathematical models that have strong predictive accuracy.Second, the exclusion of conference abstracts, letters to the editor, and non-English- oral communication studies index have led to publication bias, which was not found in the present review. However, a review of these abstracts and letters suggested that the overall results were similar to the results in the English language studies included. Third, there is a risk for publication bias in which positive results or results with expected findings are more likely to be published. We made all possible effort to minimize this type of bias by contacting investigators in the field of BISAP. If editors were more likely to publish manuscripts showing the expected results of a good diagnostic performance for BISAP, then our results may be overestimating the real diagnostic performance of BISAP.In conclusion, we confirmed that BISAP score is an accurate means to predict SAP in the early phase. Due to simplicity and easily obtained parameters, BISAP score should gain broad acceptance in routine use not by refilling clinical assessment, but rather by complementing and objectifying it.
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